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What's the "correct" way to write a decreasing loop with a size_t value and a boundary condition. Example incorrect implementation:

for (size_t elemNum = listSize-1; elemNum >= 0; --elemNum) { /* ... */ }

When it reaches zero it will wrap around to the max value rather than acting as a boundary condition. Iterating the loop in reverse is necessary. It seems like a problem that would have a defacto standard solution but I can't find what it is.

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up vote 15 down vote accepted

The most succinct approach is to use post-increment:

for (size_t i = listSize; i--;) ...
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umm, this won't behave any different to --i? – James Aug 28 '11 at 22:37
oh, I see, the increment is in the condition. My bad – James Aug 28 '11 at 22:39
I think it works, but imo using a while loop like pmg suggested is easier to understand than "misusing" for in that way. – Medo42 Aug 28 '11 at 22:40
@Medo42: How is the while-loop approach any less of a "misuse"? Plus, it broadens the scope of the loop variable beyond the loop, which is bad karma. – Marcelo Cantos Aug 28 '11 at 22:43
I like this solution the best. So long as the "goes to" operator mentioned in the other comment is understood I can make it even more clear as: for (size_t i = listSize; i --> 0;) { /* ... */ } – Mark Langen Aug 29 '11 at 19:52
elemNum = listsize;
while (elemNum--) {
    /* work with elemNum varying from `listsize - 1` down to `0` */
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Some compilers support the special "goes to" operator, while (elemNum --> 0) { /* ... */ } for this purpose. – Kerrek SB Aug 28 '11 at 22:50
For those that don't get it: – In silico Aug 28 '11 at 22:52
@Kerrek: I think you mean all Standard conforming compilers :) – pmg Aug 28 '11 at 22:53
@pmg, a small nitpick here: the elemNum will not be 0 after this (there will be a wrap-around just after the last iteration). Since the asker's for loop didn't even make elemNum visible outside of the loop it probably does not matter, but it is (very slightly) cleaner to do the decrement as first line inside the loop. – Branko Dimitrijevic Aug 28 '11 at 23:05
@Branko I don't think that is a small nitpick, but a real counter argument. Local index variables in for loops do have a reasons, and so this answer here is not appropriate. – Jens Gustedt Aug 29 '11 at 7:03

I don't know of a standard way, but this should work:

for (size_t elemNum = listSize-1; elemNum < listSize; --elemNum) { /* ... */ }
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That's a pretty neat way of doing it. – James Aug 28 '11 at 22:34
A bit tricky to understand if you don't expect it though. – Medo42 Aug 28 '11 at 22:36
no, it's a pretty obfuscated way. it's so ugly I would like to downvote it.. :/ – Karoly Horvath Aug 28 '11 at 22:37
Well, I don't see it tricky at all. I see it very elegant and intelligent. – Diego Sevilla Aug 28 '11 at 22:40
This approach is fragile. The type of the loop variable might change later (e.g., a maintenance programmer might do so to resolve type comparison warnings, and may neglect to properly inspect the code), and then all bets are off. – Marcelo Cantos Aug 28 '11 at 22:46

You could use two variables instead:

size_t count = 0;
for (size_t elemNum = listSize-1; count < listSize; ++count, --elemNum) { /* ... */ }
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for (size_t counter = listSize; counter > 0; --counter) { 
     size_t index = counter-1;

    /* ... use `index` as an index ... */ 
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size_t elemNum = listSize;
while (elemNum > 0) {
    // Do your work here.
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You could use this as the condition:

elemNum != (size_t)-1

Or you could count up, and do some math (which the compiler will probably optimise out anyway) for your index:

for (size_t i = 1; i <= listSize; i++) {size_t elemNum = listSize-i; /* */}
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If you can guarantee the starting value isn’t too large, a simple answer is: use a signed type instead.

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The standard C++ way would be to use a std::reverse_iterator.

Somehow within the loop you are accessing element elemNum of a list, say via list[elemNum], where list models the RandomAccessIterator concept. Suppose that list_iterator_type is the decltype of list. Your loop using reverse iterators becomes:

std::reverse_iterator<list_iterator_type> it, end = std::reverse_iterator<list_iterator_type>(list);
for (it = std::reverse_iterator<list_iterator_type>(list + listSize); it != end; ++it) {
    // `*it` is `list[elemNum]`
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